Foot system for parts of furniture and furnishing items with front adjustment levelling

ABSTRACT

A foot system for parts of furniture and furnishing items with front adjustment levelling, wherein a foot (11) is positioned between a base or bottom (12) of a piece of furniture and a floor (P) in a space reduced in height (H), said foot (11) containing in its interior a height adjustment mechanism actuated from a hole or actuating point (13) by means of a maneuvering tool (14), the hole or actuating point (13) being positioned, in the system, at a lower free end of the foot (11) resting on the floor (P).

RELATED APPLICATIONS

This application is a Continuation of U.S. patent application Ser. No. 16/335,266 filed on Mar. 21, 2019 which is a National Phase of PCT Patent Application No. PCT/EP2017/075675 having International filing date of Oct. 9, 2017, which claims the benefit of priority of Italian Patent Application No. 102016000102943 filed on Oct. 13, 2016. The contents of the above applications are all incorporated by reference as if fully set forth herein in their entirety.

FIELD AND BACKGROUND OF INVENTION

The present invention relates to a foot (or leg) system for parts of furniture and furnishing items with front adjustment levelling.

A series of patent applications and patents are currently known, that describe various foot or leveler systems adjustable from the front. These systems are, for example, object of patents EP-A-05751960.5, EP-A-13162252.4, EP-A-14172508.5, and IT1408681, AU-2009227484, DE-9310159, US-2016/235200, U.S. Pat. Nos. 1,632,383, 3,641,620 and EP-1698253.

For technical and also aesthetical purposes, furniture producers have recently shown the tendency of reducing the distance between the floor and the base of the furniture (baseboard), to measurements of less than about 70/80 mm.

In these situations, due to the reduced space between the floor and furniture, it is difficult to have manual access to the feet to be able to adjust them.

In order to solve this problem, some furniture producers produce a hole in the base of the furniture through which the height of the foot can be adjusted.

Other producers, so as not to ruin the inner appearance of the base of the furniture and to avoid having to perforate the bases, have asked for foot systems to be produced that can be easily actuated from the front part of the furniture, regardless of the reduced spaces available.

The above-mentioned patents solve the problem in most situations.

There are cases, however, in which the space between the base of the furniture and the floor is further reduced and the systems so far existing, mentioned above, cannot be used.

For specific technical requirements (for example in a refrigerator base) and/or aesthetic requirements, some furniture manufacturers have come up with the need for foot systems adjustable from the front that can be used in a space of only 20/30 mm.

In these situations, it is very difficult or even impossible to use systems currently existing.

The retracted position of the foot with respect to the front of the furniture, in fact, combined with the reduced maneuvering space between the base and floor, hinders the operator in the adjustment.

This reduced space compels the operator to manoeuvre the adjustment tool keeping it substantially parallel to the floor and very close to it.

This position is particularly unsuitable for maneuvering, to the extent that it is difficult to insert the tool in the actuating point and rotate it without his hand interfering with the floor.

SUMMARY OF THE INVENTION

The general objective of the present invention is therefore to provide a foot system for parts of furniture and furnishing items with front adjustment levelling capable of solving the above drawbacks of the known art in an extremely simple, economical and particularly functional manner.

A further objective of the present invention is to provide a foot system for parts of furniture and furnishing items with front adjustment levelling with extremely reduced encumbrances and with improved access from outside the furniture.

Another objective of the present invention is to provide a foot system for parts of furniture and furnishing items with front adjustment levelling also for specific technical destinations such as refrigerator bases.

The above objectives are achieved by a foot system for parts of furniture and furnishing items with front adjustment levelling produced according to the independent claim 1 and the following subclaims.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

The structural and functional characteristics of the present invention and its advantages with respect to the known art will appear even more evident from the following description, referring to the enclosed schematic drawings, which show an embodiment of the invention itself. In the drawings:

FIG. 1 is a raised side view illustrating a foot system for parts of furniture and furnishing items with front adjustment levelling according to the invention;

FIGS. 2 and 3 are two raised side views of a second embodiment of a foot system for parts of furniture and furnishing items with front adjustment levelling in two different positions, for example between a refrigerator base and the floor;

FIGS. 4 and 5 are two raised side views of a third embodiment of a foot system for parts of furniture and furnishing items with front adjustment levelling in two different positions, for example between a base or bottom of a piece of furniture and the floor;

FIGS. 6a, 6b and 7a, 7b are two raised side views of a fourth embodiment of a foot system for parts of furniture and furnishing items with front adjustment levelling with adjustment on rear feet in two different positions.

DESCRIPTION OF SPECIFIC EMBODIMENTS OF THE INVENTION

With reference first of all to FIG. 1, this shows in a raised side view, a foot system for parts of furniture and furnishing items with front adjustment levelling according to the invention.

A foot 11 is positioned between a base or bottom 12 of a piece of furniture and a floor P in a space reduced in height H, left by the arrangement of the parts.

The foot 11, which contains in its interior an adjustment mechanism in height, has a hole 13 for the passage of a maneuvering tool 14.

This hole 13 is formed in the body of the foot 11 in a lower area which is situated close to the floor P, opposite the base 12 of the furniture. In particular, the foot 11 is of the telescopic type and comprises a lower fixed part 17 f with respect to the floor P and an upper movable part 17 m integral with the base 12 of the furniture and which can be moved with it during the adjustment.

In this way, the actuating point of the adjustment mechanism (coinciding with the hole 13) is adjacent to the floor P, positioned at a lower free end of the foot 11 in the fixed part 17 f of the foot 11 resting on the floor P.

It should also be considered that the foot 11 is positioned with one of its axes X in a retracted position of a space R with respect to a front part of the furniture or base 12.

As the space H between the base 12 of the furniture and the floor P is reduced, the maneuvering tool 14 can be tilted by an angle α with respect to the floor P indicated as the maneuvering angle of the adjustment mechanism. The angle α is in relation to the ratio existing between the retracted space R of the axis X of the foot 11 with respect to the front part of the furniture and the space H existing between the base 12 of the furniture and the floor P. Said angle α preferably ranges from 0° to 40°, preferably 30°.

It can be observed that in an arrangement according to the present invention, in order to be able to easily adjust the foot 11, the actuating point of the mechanism (coinciding with the hole 13) has been positioned in the lower part of the foot 11, unlike its arrangement in the known art where it is provided above. This actuation position is therefore adjacent to the floor and opposite the base 12 of the furniture.

The foot 11, in its upper movable part 17 m at one of its free ends, provides a flange 18 which is provided with one or more pins 19. Said pins 19 are inserted in specific seats 23 formed in the base 12 which help in orienting the foot in its insertion phase between the base 12 and the floor P.

This very particular and new arrangement allows a greater maneuvering angle α for the tool 14 with respect to that possible with the normal feet currently used. This makes it possible to reach the actuating point avoiding an edge S of the base 12 of the front of the furniture, in any case maintaining sufficient space for the operator's hand between the tool 14 and the floor P.

FIGS. 2 and 3 show, in two raised side views, a second embodiment of foot system for parts of furniture and furnishing items with front adjustment levelling. FIGS. 2 and 3 show two different positions, one lowered and the other raised, for example between a refrigerator base 112 and a floor P.

This is actually a very extreme situation of space shortage between the refrigerator base and the floor.

In these even more extreme situations of available space between refrigerator base 112 and floor P, in order to ensure an ample adjustment, a thickness K of an extension 116 of the refrigerator base 112 towards the floor P, has been exploited. An engagement portion 115 of the foot 11 has been formed in the interior of this extension 116, for inserting part of the adjustment mechanism of the foot. Said portion 115 is specifically produced in said thickness K of the base 112.

In particular, a flange 118 has been formed in an upper movable part 117 m of the foot 11, which is abutted beneath the extension 116 ensuring better support between the parts.

In this way, an extremely reduced distance N is obtained between the flange 118 and the floor P, in which the maneuvering tool 14 can be passed.

The lower fixed part 117 f of the foot is that which gives the system stability and is where the actuating point or hole 113 of the adjustment mechanism is situated, in a position close to or adjacent to the floor P.

FIGS. 4 and 5 also show in a further embodiment of the system in which the foot 11 is positioned between a bottom 212 of the furniture and the floor P.

Also in this case, it can be seen how a space of the thickness of the bottom 212 has been exploited for ensuring an ample adjustment. An engagement portion 215 of an upper movable part 217 m of the foot 11 has been formed in the interior of this thickness, thus inserting part of the adjustment mechanism in said thickness of the base. This upper movable part 217 m of the foot 11 collaborates with the lower fixed part 217 f of the foot 11 which is firmly positioned on the floor P and which provides the hole 213 or actuating point of the adjustment mechanism.

To improve the support between the parts and their stability, a wide flange 218 is provided in the upper movable part 217 m of the body of the foot 11.

This flange 218 is also provided with one or more pins 219 positioned in seats 223 which help in orienting the foot during its insertion phase in the seat 215.

Once again, an extremely small distance M between flange 218 and the floor P has thus been obtained in which the maneuvering tool 14 can be passed.

In FIGS. 4 and 5 it is illustrated, by way of example, how an adjustment mechanism can be actuated in height by means of a maneuvering tool 14 inserted from the hole or actuating point 213.

Said adjustment mechanism is arranged in two half-shells 24, 25 positioned inside the lower fixed part 217 f and the upper movable part 217 m of the foot 11. In particular, the two half-shells house 24,25 in the lower part, a pinion 26 free to rotate, which is coupled with a toothed crown 27, also free to rotate. The toothed crown 27 is positioned at an end of a threaded screw 28 on which a sleeve 29 is housed, slidingly guided in the above half-shells 24, 25. An upper shaped end 30 of the sleeve 29 is abutted in an internal base portion 31 of the upper movable part 217 m of the foot 11.

In this way, by placing the maneuvering tool 14, passing from the hole or actuating point 213, to be housed in a recessed seat 32 of the pinion 26, its rotation is promoted. The rotation of the pinion 26 causes the rotation of the toothed crown 27 and consequently the threaded screw 28. This rotation forces the sleeve 29 to rise inside the two half-shells 24, 25 moving the upper movable part 217 m of the foot 11 upwards. The adjustment in height of the foot is thus actuated.

FIGS. 6a, 6b and 7a, 7b are pairs of raised side views of a fourth embodiment of a foot system for parts of furniture and furnishing items with front adjustment levelling with adjustment on rear feet in two different positions.

In particular, FIGS. 6a and 6b show a front foot 11A and a rear foot 11P. The front foot 11A provides a hook extension integrated in the same for housing an end portion of a maneuvering return rod 21 for adjusting the rear foot 11P. In the example of FIG. 6a , the return rod 21 is inserted in a maneuvering point 22 or hole formed in the rear foot 11P in a lower position.

FIG. 6b , on the contrary, shows a second example in which the return rod 21 is inserted in a maneuvering point 22 or hole formed in the rear foot 11P in an upper position. In both cases, as already indicated, the hook extension 20 is integrated with the front foot 11A.

In both cases, the return rod 21 is fixed, in the front, in the front foot 11A, in a position close to the floor P.

The further FIGS. 7a and 7b also show a front foot 11A and a rear foot 11P with a maneuvering return rod 21 for adjusting the rear foot 11P. In this case, a hook extension 20′ is provided, which extends from the base 12, constrained to the same, and is associated (cooperates) with the front foot 11A for housing an end portion of the maneuvering return rod 21.

Identically to what is shown in FIGS. 6a and 6b , FIG. 7a also shows how the return rod 21 is inserted in a maneuvering point 22 or hole formed in the rear foot 11P in a lower position.

FIG. 7b , on the contrary, shows how the return rod 21 is inserted in a maneuvering point 22 or hole formed in the rear foot 11P in an upper position.

The forms of the structure for producing a system according to the present invention, as also the materials and assembly modes, can obviously differ from those shown for purely illustrative and non-limiting purposes in the drawings.

The objective mentioned in the preamble of the description has therefore been achieved.

The protection scope of the present invention is defined by the enclosed claims. 

What is claimed is:
 1. A foot system suitable for being used in parts of furniture and furnishing items with a bottom (12) with front adjustment levelling, comprising: at least one front foot (11A), configured to be positioned between the bottom (12) of a piece of furniture, configured to contact the floor (P), and a rear foot (11P); wherein a space between said bottom of said piece of furniture and said floor is reduced in height (H), said front foot (11A) contains a height adjustment mechanism in an interior part of said front foot (11A), said height adjustment mechanism is configured to be actuated through a hole or an actuating point (13) by using a maneuvering tool (14), wherein said front foot (11A) comprises a lower fixed part (17 f) configured to contact the floor (P), wherein said hole or actuating point (13) is positioned at said lower fixed part (17 f, 117 f, 217 f) at a free end of the front foot (11A) resting on the floor (P)), wherein said height adjustment mechanism has a maneuvering angle (α) with respect to said floor (P), said angle α ranges from 0° to 40°; wherein said front foot (11A) houses an end portion of a maneuvering return rod (21) for the adjustment of the rear foot (11P), wherein said return rod (21) is inserted in a maneuvering hole (22) formed in the rear foot (11P).
 2. The system according to claim 1, wherein said front foot (11A) having a flange 18) with one or more pins (19) adapted to be inserted in appropriate seats (23) formed in the bottom (12) for orienting the foot in an insertion phase between the base (12) and the floor (P).
 3. The system according to claim 1, wherein said bottom (12,112) provides, in a thickness (K) of an extension (116) towards the floor (P), an engagement portion (115) of the front foot (11A) for inserting part of the height adjustment mechanism of the foot.
 4. The system according to claim 3, wherein a flange (118) is formed in an upper movable part (117) of a body of the front foot (11A), which is abutted below the extension (116).
 5. The system according to claim 3, wherein a flange (218) is provided in an upper movable part (217) of a body of the front foot (11A), provided with one or more pins (219) positioned inside seats (223) of said bottom (212) for orienting the foot during an insertion phase in a seat (215) of said bottom (212).
 6. The system according to claim 1, wherein said maneuvering hole (22) is formed in a lower portion of the rear foot (11P).
 7. The system according to claim 1, wherein said maneuvering hole (22) is formed in an upper portion of the rear foot (11P).
 8. The system according to claim 1, wherein a hook extension (20) is integrated in said front foot (11A).
 9. The system according to claim 8, wherein said hook extension (20) is part of a hook element (20′) which extends from the bottom (12) and which is associated with the front foot (11A).
 10. The system according to claim 1, wherein said height adjustment mechanism comprises a casing (24,25) containing a pinion-toothed crown bevel (26,27) structured to allow a threaded screw (28) to move a sleeve (29) abutted at an upper movable part (17 m,117 m,217 m) integral with said bottom (12,112,212) of said piece of furniture. 